https://www.selleckchem.com/products/eidd-2801.html These energy savings are a practical and important metric for supercomputing centers (many of which exceed over $1 million in power costs alone), as exascale computing capabilities become more widespread and commonplace. Taken together, the implementation techniques and performance metrics of our study demonstrate that FPGAs could play a promising role in upcoming quantum chemistry and materials science applications, particularly for the acceleration and energy-efficient execution of quantum dynamics calculations.Band 3 is an anion exchanger for chloride/bicarbonate in the plasma membrane of erythrocytes. The function of Band 3 may be influenced by the interactions between Band 3 and lipids or lipid domains in the plasma membrane. In this work, using atomistic molecular dynamics simulation, we investigate the interactions between Band 3 and nanosized lipid domains in ternary lipid bilayers composed of saturated lipids, unsaturated lipids, and cholesterol. The simulations show asymmetric interactions between Band 3 and lipid nanodomains in the two leaflets of a neutral lipid bilayer with lower cholesterol concentration. With an increase in cholesterol concentration in the bilayer, cholesterol affects the interactions between Band 3 and lipid domains by deforming the structure of the protein. Additionally, the anionic lipids, which prefer to bind to some specific sites of Band 3, also affect the interactions between Band 3 and lipid domains. This work provides some new insight into understanding the distribution of Band 3 in the plasma membrane of erythrocytes as well as its anion exchange function.Resonance, beats, and synchronization are general and fundamental phenomena in physics. Their existence and their in-depth understanding in physical systems have led to several applications and technological developments shaping our world today. Here we show the existence of chemical resonance, chemical beats, and frequenc